CN209086336U - Data center's fictitious load test macro and device - Google Patents
Data center's fictitious load test macro and device Download PDFInfo
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- CN209086336U CN209086336U CN201821500446.0U CN201821500446U CN209086336U CN 209086336 U CN209086336 U CN 209086336U CN 201821500446 U CN201821500446 U CN 201821500446U CN 209086336 U CN209086336 U CN 209086336U
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Abstract
Data center's fictitious load test macro and device, including the road L1 control circuit, the road L2 control circuit, the road L3 control circuit, the road L4 control circuit, the road L5 control circuit and the road L6 control circuit.The input of 4 road firewires, respectively to the breaker on the road L1, L2, L3, L4, the road L4 control circuit firewire is connected in parallel to the road L5 control circuit firewire simultaneously.The road L1, L2, L3, L4 control circuit is connected in circuit firewire using straight-through current transformer respectively simultaneously, is obtained running current in circuit, is fed back on the concentration digital display screen in L6 control circuit.Rectifier (rectifier is AC/DC universal rectification module) power supply is given by the road L4 control circuit, starts radiator fan, is case radiation.
Description
Technical field
The utility model relates generally to data center machine room integration test field more particularly to data center's fictitious load test
System and device.
Background technique
Currently, much newly-built computer room all can be using using fictitious load in order to understand calculator room equipment performance and each system function
The mode for simulating real server load fever and electricity consumption, tests the availability of entire room system, which is known as
The integration test of data center computer room.Under normal circumstances, the used fictitious load of computer room integration test is that Alternating Current Power Supply is nonadjustable
Mode, functional single, the test request being unable to satisfy under present computer room different situations, deployment is complicated, reduces efficiency, increases and surveys
Try the time.
Utility model content
In place of the purpose of this utility model is to overcome above-mentioned deficiency, to provide a kind of data center's fictitious load test system
Bulk cargo is set, and the utility model is to solve above-mentioned technical problem: data center's fictitious load test macro by following technical proposals,
It include: the road L1 control circuit, the road L2 control circuit, the road L3 control circuit, the road L4 control circuit, the road L5 control circuit and L6 number
Aobvious screen control circuit.
The road L1 control circuit includes: circuit breaker Q F1 is connect with temperature-sensitive temperature detect switch (TDS) FU1, temperature-sensitive temperature detect switch (TDS) FU1
It is connect with 2000W purely resistive heating wire R1, it is mutual that the power lead of this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through centre path current
Sensor CT1, circuit breaker Q F1 are connect by conducting wire with power outlet, and wherein firewire is open circuit.
The road L2 control circuit includes: circuit breaker Q F2 is connect with temperature-sensitive temperature detect switch (TDS) FU2, temperature-sensitive temperature detect switch (TDS) FU2
It is connect with 2000W purely resistive heating wire R2, it is mutual that the power lead of this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through centre path current
Sensor CT2, circuit breaker Q F2 are connect by conducting wire with power outlet, and wherein firewire is open circuit.
The road L3 control circuit includes: circuit breaker Q F3 is connect with temperature-sensitive temperature detect switch (TDS) FU3, temperature-sensitive temperature detect switch (TDS) FU3
It is connect with 1000W purely resistive heating wire R3, it is mutual that the power lead of this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through centre path current
Sensor CT3, circuit breaker Q F3 are connect by conducting wire with power outlet, and wherein firewire is open circuit.
The road L4 control circuit includes: circuit breaker Q F4 is connect with temperature-sensitive temperature detect switch (TDS) FU4, temperature-sensitive temperature detect switch (TDS) FU4
It is connect with 1000W purely resistive heating wire R4, it is mutual that the power lead of this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through centre path current
Sensor CT4, circuit breaker Q F4 are connect by conducting wire with power outlet, and wherein firewire is open circuit.
The road L5 control circuit includes: circuit breaker Q F5 connect best friend with the road the L4 end of incoming cables control circuit circuit breaker Q F4
DC rectification power module, rectifier power supply module are connected to DC radiation fan.Wherein firewire is open circuit.
The road the L6 digital display screen control circuit includes: respectively at the road L1, the road L2, the road L3, the road L4 control circuit firewire peace
Equipped with straight-through current transformer, 4 groups of mutual inductors obtain the electric current flowed through in circuit, feed back on digital display screen, the digital display screen
Power supply takes electricity by the road L4 control circuit front end.
Further, data center's fictitious load test macro further includes position selecting device, the position selecting device, and 4
Road Firewire circuitry is connected with the road L1 circuit, the road L2 circuit, the road L3 circuit, the road L4 circuit respectively, and No. 4 branch circuits have breaker
Control carries out gear selection respectively.
Further, in data center's fictitious load test macro, it is connected with alterating and direct current source module in L5 control circuit, supplies
It is used to radiator fan.
Further, in data center's fictitious load test device, the road L6 control circuit chain is connected to digital display screen, can show respectively
Show the road L1, L2, L3, L4 operating current, can get information about per working condition all the way.
This device can meet data center machine room AC and DC test request, various single-machine capacitys (from 1000W to 6000W)
It is required that deployment is convenient, a large amount of costs of labor are saved.
Detailed description of the invention
Fig. 1 is data center's fictitious load test macro circuit diagram of the utility model.
Fig. 2 is data center's fictitious load test macro digital display screen wiring diagram of the utility model.
Fig. 3 is the structure chart of data center's fictitious load test macro of the utility model.
Specific embodiment
It is specific embodiment of the utility model below, in conjunction with attached drawing, the technical solution of the utility model is made further
Description, but the utility model is not limited to these examples.
Such as Fig. 1,2 displays, data center's fictitious load test macro, comprising: the road L1 control circuit, the road L2 control circuit, L3
Road control circuit, the road L4 control circuit, the road L5 radiator fan circuit and the road L6 digital display screen circuit.The road L1 control circuit has disconnected
Road device QF1, circuit breaker Q F1 are connect with temperature-sensitive temperature detect switch (TDS) FU1, and temperature-sensitive temperature detect switch (TDS) FU1 is connect with resistance R1, in connecting wire
Across straight-through current transformer CT1, circuit breaker Q F1 is connect with first via AC/DC power supply, and wherein firewire is control open circuit;
The L2 control circuit has circuit breaker Q F2, circuit breaker Q F2 to connect with temperature-sensitive temperature detect switch (TDS) FU2, temperature-sensitive temperature detect switch (TDS)
FU2 is connect with resistance R2, and straight-through current transformer CT2, circuit breaker Q F2 and the second road AC/DC power supply are passed through in connecting wire
Connection, wherein firewire is control open circuit;
The L3 control circuit has circuit breaker Q F3, circuit breaker Q F3 to connect with temperature-sensitive temperature detect switch (TDS) FU3, temperature-sensitive temperature detect switch (TDS)
FU3 is connect with resistance R3, and straight-through current transformer CT3, circuit breaker Q F3 and third road AC/DC power supply are passed through in connecting wire
Connection, wherein firewire is control open circuit;
The L4 control circuit has circuit breaker Q F4, circuit breaker Q F4 to connect with temperature-sensitive temperature detect switch (TDS) FU4, temperature-sensitive temperature detect switch (TDS)
FU4 is connect with resistance R4, and straight-through current transformer CT4, circuit breaker Q F4 and the 4th road AC/DC power supply are passed through in connecting wire
Connection, wherein firewire is control open circuit;The L1 circuit, L2 circuit, L3 circuit, L4 circuit realize independent control.
Selection gear is carried out using breaker and reaches adjustment power, is generated heat by resistance heating analogue data central loading
Amount, machine box equipment can access AC or DC power supply, while can show on each branch control circuit on the circuit digital display screen of the road L6
Electric current, can intuitive observation device operating status, achieve the purpose that data center tests.
In the embodiments of the present invention, the road the L5 circuit connection independent control radiator fan, when device to test
The cold and hot channel cold-hot wind conversation test in radiator fan analogue data center is opened, keeps radiator fan when closing utility model device
It opens, can cool down to test device, improve device reliability.
Claims (4)
1. data center's fictitious load test macro and device characterized by comprising the road L1 control circuit, the road L2 control circuit,
The road L3 control circuit, the road L4 control circuit, the road L5 control circuit and the road L6 current digital display screen control circuit,
The road L1 control circuit includes: circuit breaker Q F1 is connect with temperature-sensitive temperature detect switch (TDS) FU1, temperature-sensitive temperature detect switch (TDS) FU1 and 2000W
The power lead of the R1 connection of purely resistive heating wire, this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through straight-through current transformer CT1,
Circuit breaker Q F1 is connect by conducting wire with power outlet, and wherein firewire is open circuit,
The road L2 control circuit includes: circuit breaker Q F2 is connect with temperature-sensitive temperature detect switch (TDS) FU2, temperature-sensitive temperature detect switch (TDS) FU2 and 2000W
The power lead of the R2 connection of purely resistive heating wire, this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through straight-through current transformer CT2,
Circuit breaker Q F2 is connect by conducting wire with power outlet, and wherein firewire is open circuit,
The road L3 control circuit includes: circuit breaker Q F3 is connect with temperature-sensitive temperature detect switch (TDS) FU3, temperature-sensitive temperature detect switch (TDS) FU3 and 1000W
The power lead of the R3 connection of purely resistive heating wire, this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through straight-through current transformer CT3,
Circuit breaker Q F3 is connect by conducting wire with power outlet, and wherein firewire is open circuit,
The road L4 control circuit includes: circuit breaker Q F4 is connect with temperature-sensitive temperature detect switch (TDS) FU4, temperature-sensitive temperature detect switch (TDS) FU3 and 1000W
The power lead of the R4 connection of purely resistive heating wire, this road temperature-sensitive temperature detect switch (TDS) and heating wire passes through straight-through current transformer CT4,
Circuit breaker Q F4 is connect by conducting wire with power outlet, and wherein firewire is open circuit, and 4 tunnel control circuits realize independent control,
The road L5 control circuit includes: circuit breaker Q F5 and the end of incoming cables circuit breaker Q F4 are connected to alternating current-direct current rectifier power supply module, whole
Galvanic electricity source module is connected to DC radiation fan, and wherein firewire is open circuit,
The road L6 digital display screen control circuit includes: being equipped with punching respectively at the road L1, the road L2, the road L3, the road L4 control circuit firewire
Formula current transformer, 4 groups of mutual inductors obtain the electric current flowed through in circuit, feed back on digital display screen, the digital display screen power supply is by L4
Road control circuit front end takes electricity.
2. a kind of data center's fictitious load test macro according to claim 1 and device, which is characterized in that further include shelves
Position selection device, the position selecting device firewire input terminal are divided into No. 4 branch circuits, and each branch circuit is respectively with 1
Number firewire, No. 2 firewires, No. 3 firewires, No. 4 firewires are respectively not attached to, and No. 4 branch circuits have breaker to control respectively to carry out gear
Selection.
3. a kind of data center's fictitious load test macro according to claim 1 and device, which is characterized in that the road L5
Alterating and direct current source module is connected in control circuit, supply radiator fan uses.
4. a kind of data center's fictitious load test macro according to claim 1 and device, which is characterized in that the road L6
Digital display screen is connected in control circuit, for showing the operating current on the road L1, L2, L3, L4.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821500446.0U CN209086336U (en) | 2018-09-07 | 2018-09-07 | Data center's fictitious load test macro and device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821500446.0U CN209086336U (en) | 2018-09-07 | 2018-09-07 | Data center's fictitious load test macro and device |
Publications (1)
Publication Number | Publication Date |
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CN209086336U true CN209086336U (en) | 2019-07-09 |
Family
ID=67116605
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821500446.0U Active CN209086336U (en) | 2018-09-07 | 2018-09-07 | Data center's fictitious load test macro and device |
Country Status (1)
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CN (1) | CN209086336U (en) |
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2018
- 2018-09-07 CN CN201821500446.0U patent/CN209086336U/en active Active
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